Sublingual vaccination and delivery systems.

Most infectious agents use mucosal tissues as entry portals, thus, mucosae are frequently defined as a first line of defense against pathogens. Mucosal protection generally operates through antibody-mediated and cytotoxic T-cell responses which can be triggered by mucosal vaccines. Sublingual vaccination provides many advantages such as systemic and mucosal responses (both locally and at remote mucosal sites), besides being a needle-free administration route with high patient compliance and limited adverse effects. Buccal mucosa complexity nonetheless represents a challenge for vaccine administration, hence, many efforts were recently deployed to improve vaccine components, mucoadhesion and/or penetration. Several innovative approaches indeed confirmed that a robust and protective immunity can be achieved by sublingual vaccines. This review will then specify the most recent delivery systems and improvements developed to increase sublingual vaccines efficiency. We will focus our description on the immune mechanisms involved and the requirements for optimal sublingual immunization and mucosal protection.

Development and organization of human stratum corneum after birth: electron microscopy isotropy score and immunocytochemical corneocyte labelling as epidermal maturation's markers in infancy.

BACKGROUND: There is growing evidence for the ongoing structural and functional adaptation of the skin after birth. OBJECTIVES: The aim of this study was the definition of scanning electron microscopy markers of skin maturation in different age groups (birth to adulthood). We propose a semiquantitative score to analyse the maturation of the skin surface and a complementary evaluation of the distribution of corneodesmosin and corneodesmosomes. MATERIAL AND METHODS: An electron microscopy isotropy (E.M.I.) score was performed in six age-groups to include fullterm neonates, babies, children and adults. The distribution of corneodesmosome remnants was analysed by corneodesmosin distribution with immunocytochemical corneocyte labelling. RESULTS: The E.M.I. score showed the highest anisotropy in neonates. The youngest groups displayed irregular and thick cell clusters composed of poorly individualized cells. In the older groups, the distribution of superficial corneocytes was more regular. The cells evenly covered the surface and displayed easily visualized single cell outlines. The distribution of immune-labelled corneodesmosome remnants and the corneocyte projected area showed a correlation between age and structural maturation. The observed evolution indicated a poorly controlled process of corneocyte desquamation in infants and confirmed the relative immaturity of the epidermal barrier up to 1-2 years after birth under basal conditions. CONCLUSION: Our study is the first attempt at semiquantitative evaluation of the micromorphology maturation of the epidermal surface at the ultrastructural level. The E.M.I. score and the associated pattern of corneodesmosome breakdown may be used as markers of the stratum corneum maturation.

[Mitochondrial DNA: properties and applications]. / ADN mitochondrial: propriétés et applications.

Mitochondria are the intracellular organelle responsible for the production of cellular energy. They play an important role in the regulation of cellular metabolism, apoptosis and oxydative stress control. Mitochondrial DNA (mtDNA) has many special features such as a high copy number in cell, maternal inheritance, and a high mutation rate which have made it attractive to scientists from many fields. In anthropological genetics, mtDNA is useful to trace geographic distribution of genetic variation, for the investigation of expansions, migrations and other pattern of gene flow. mtDNA is widely applicated in forensic science. It is a powerful implement to identify human remains. mtDNA is characterized by the high rate of polymorphisms and mutations. Some of which are increasingly recognized as an important cause of human pathology such as oxidative phosphorylation (OXPHOS) disorders, maternally inherited diabetes and deafness (MIDD), Type 2 diabetes mellitus, neurodegenerative disorders, heart failure and cancer.

Different roles of odontoblasts and fibroblasts in immunity.

Odontoblasts and fibroblasts are suspected to influence the innate immune response triggered in the dental pulp by micro-organisms that progressively invade the human tooth during the caries process. To determine whether they differ in their responses to oral pathogens, we performed a systematic comparative analysis of odontoblast-like cell and pulp fibroblast responses to TLR2-, TLR3-, and TLR4-specific agonists (lipoteichoic acid [LTA], double-stranded RNA, and lipopolysaccharide [LPS], respectively). Cells responded to these agonists by differential up-regulation of chemokine gene expression. CXCL2 and CXCL10 were thus increased by LTA only in odontoblast-like cells, while LPS increased CCL7, CCL26, and CXCL11 only in fibroblasts. Supernatants of stimulated cultures increased migration of immature dendritic cells compared with controls, odontoblast-like cells being more potent attractants than fibroblasts. Analysis of these data suggests that odontoblasts and pulp fibroblasts differ in their innate immune responses to oral micro-organisms that invade the pulp tissue.

CYP1B1 mutations in French patients with early-onset primary open-angle glaucoma.

INTRODUCTION: Primary open-angle glaucoma (POAG) is a leading cause of visual impairment worldwide and a complex genetic disorder that affects mostly adults. Mutations in the MYOCILIN (MYOC) and OPTINEURIN genes account for rare forms with a Mendelian inheritance and for <5% of all POAG cases. The CYP1B1 gene, a member of the cytochrome P450 gene family, is a major cause of primary congenital glaucoma (PCG), a rare and severely blinding disease with recessive inheritance. However, CYP1B1 mutations have also been associated with cases of juvenile-onset glaucoma in some PCG families or shown to modify the age of onset of glaucoma linked to a MYOC mutation in a large family. OBJECTIVE: To investigate the role of CYP1B1 mutations in POAG predisposition, irrespective of the presence of a MYOC mutation. METHODS AND SUBJECTS: CYP1B1 coding region variation was characterised by denaturing high performance liquid chromatography (DHPLC) and sequencing in 236 unrelated French Caucasian POAG patients and 47 population-matched controls. RESULTS: Eleven (4.6%) patients carried one or two mutated CYP1B1 gene(s) and no MYOC mutation. They showed juvenile or middle-age onset of disease (median age at diagnosis, 40 years, range 13-52), significantly earlier than in non-carrier patients. Apart from one, all mutations detected in POAG patients were previously associated with PCG. CONCLUSION: CYP1B1 mutations might pose a significant risk for early-onset POAG and might also modify glaucoma phenotype in patients who do not carry a MYOC mutation.

Mitochondrial DNA sequence diversity in a sedentary population from Egypt.

The mitochondrial DNA (mtDNA) diversity of 58 individuals from Upper Egypt, more than half (34 individuals) from Gurna, whose population has an ancient cultural history, were studied by sequencing the control-region and screening diagnostic RFLP markers. This sedentary population presented similarities to the Ethiopian population by the L1 and L2 macrohaplogroup frequency (20.6%), by the West Eurasian component (defined by haplogroups H to K and T to X) and particularly by a high frequency (17.6%) of haplogroup M1. We statistically and phylogenetically analysed and compared the Gurna population with other Egyptian, Near East and sub-Saharan Africa populations; AMOVA and Minimum Spanning Network analysis showed that the Gurna population was not isolated from neighbouring populations. Our results suggest that the Gurna population has conserved the trace of an ancestral genetic structure from an ancestral East African population, characterized by a high M1 haplogroup frequency. The current structure of the Egyptian population may be the result of further influence of neighbouring populations on this ancestral population.

Association of a single nucleotide polymorphism in the TIGR/MYOCILIN gene promoter with the severity of primary open-angle glaucoma.

Primary open-angle glaucoma (POAG) is a highly prevalent optic neuropathy and a major cause of irreversible blindness, with elevation of intraocular pressure (IOP) being a primary risk factor. The trabecular meshwork-inducible glucocorticoid response (TIGR)/MYOCILIN (MYOC) gene coding region is mutated in 3-4% of POAG patients. Here, in a retrospective study of 142 POAG patients, we evaluated the influence on glaucoma phenotype of a novel biallelic polymorphism (-1000C/G) located in the upstream region of the MYOC gene. Allele frequencies were similar among patients and controls. However, the G allele (frequency 17.6%), also designated as MYOC.mt1, was associated with an increased IOP (+4.9 mmHg, p=0.0004) and a more damaged visual field (p=0.02). Both effects were predominant in females. Moreover, whereas IOP in MYOC.mt1 noncarriers decreased very markedly to the normal range between diagnosis and inclusion in the study (p=3 x 10(-5) in both males and females), reflecting successful therapy, it decreased less noticeably in MYOC.mt1+ male patients (p=0.005) and not at all in MYOC.mt1+ female patients. MYOC.mt1 appears therefore to be an indicator of poor IOP control and greater visual field damage in diagnosed POAG patients, potentially due to a lack of response to therapeutic intervention. Its typing might help in the selection of treatment paradigms for the management of POAG patients.

Mitochondrial DNA sequence diversity in two groups of Italian Veneto speakers from Veneto.

Although frequencies of mitochondrial DNA (mtDNA) haplogroups in the different European populations are rather homogenous, there are a few European populations or linguistic isolates that show different mtDNA haplogroup distributions; examples are the Saami and Ladin speakers from the eastern Italian Alps. MtDNA sequence diversity was analysed from subjects from two villages in Veneto. The first, Posina, is situated in the Venetian Alps near Vicenza. The second, Barco di Pravisdomini is a village on the plains near Venice. In spite of their common Veneto dialect, the two group populations have not preserved a genetic homogeneity; particularly, they show differences in T and J haplogroups frequencies. MtDNA diversity in these two groups seems to depend more on their geographic situation.

Analysis of susceptibility of NOD mice to spontaneous and experimentally induced thyroiditis.

Beside diabetes, non-obese diabetic (NOD) mice develop sporadic lymphoid infiltration of the thyroid gland, mimicking Hashimoto's thyroiditis. We have examined the prevalence of those manifestations in NOD mice, the influence of the major histocompatibility complex (MHC) and the association with autoantibodies. The incidence at 1 year is of 14.3% in wild-type NOD mice versus 19.6% in congenic NOD.H2k mice. The moderate, but statistically significant difference, based on the analysis of 161 NOD and 169 NOD.H2k mice, suggests that MHC genes partially control spontaneous NOD thyroiditis. Autoantibodies against thyroglobulin (Tg) are mouse specific and their presence correlates closely with thyroiditis. The strong correlation between cellular and humoral anomalies therefore resembles Hashimoto's thyroiditis. NOD and NOD.H2k mice actively immunized against Tg develop severe chronic lesions with epithelium necrosis and interstitial tissue fibrosis. Most interestingly, those lesions do not regress spontaneously as in CBA/J mice. Paradoxically, the response to Tg of lymph node cells from NOD mice is weaker both in proliferation and cytokine production. The defect is most evident for interferon-gamma-producing T cells and is reflected in the marked deficit in IgG2a antibodies. Thus a moderate anti-Tg response seems to favor chronicity of thyroiditis. In conclusion, NOD and NOD.H2k mice offer a unique opportunity of analyzing the factors leading to immune chronicity in a genetic context which promotes autoimmune endocrinopathies.

Ancient DNA is thirteen years old.

The first successful recovery of ancient DNA, from quagga and human mummies inspired significant enough interest to open an entire field of research. Efforts from many research groups, often in a hunt for the oldest sequences, showed that ancient DNA was a poor substrate for the enzymes used in molecular biology; it is present in tiny amounts, hard to purify, and frequently damaged. These obstacles have been partially overcome by the use of drastic laboratory precautions and by the introduction of polymerase chain reaction and phylogenetic studies. Ancient DNA analysis now finds applications in many research domains.

Genetic control of giant perivascular space formation in the thymus of NOD mice.

The immune system of NOD mice exhibits several anomalies, one being the intrathymic formation of giant perivascular spaces (PVSs) filled with mature thymocytes and some B-cells, intermingled within a network of extracellular matrix. The abnormal retention of thymocytes on their way to the periphery could have a profound impact on the nature of the exported cells and the regulation of autoimmune events. In the present study, we evaluated the appearance of this defect into F1 hybrids, the association with some of the known diabetes susceptibility loci (Idd genes) in a panel of NOD and reciprocal C57BL congenic strains, and the relative contribution of epithelial versus hematopoietic stroma. The analysis of F1 hybrid thymuses reveals a dominant expression of thymic giant PVS that is only marginally influenced by the outcross strain. Moreover, giant PVS expression in major histocompatibility complex (MHC) and Idd congenic mice is determined by the genetic background. All of the NOD congenics express the anomaly, irrespective of the Idd resistance alleles that have been introgressed, whereas none of the C57BL congenic mice present abnormal PVS. Finally, the expression of giant PVS in parental --> F1 bone marrow chimeras is predominantly controlled by the thymic NOD-derived hematopoietic microenvironment. In conclusion, the giant PVS formation in the NOD mouse thymus is a dominantly inherited anomaly associated with hematopoietic-derived tissue and with non-MHC genes. The exact contribution of PVS to the autoimmune process remains to be definitively established.

Human beta-globin gene polymorphisms characterized in DNA extracted from ancient bones 12,000 years old.

Analyzing the nuclear DNA from ancient human bones is an essential step to the understanding of genetic diversity in current populations, provided that such systematic studies are experimentally feasible. This article reports the successful extraction and amplification of nuclear DNA from the beta-globin region from 5 of 10 bone specimens up to 12,000 years old. These have been typed for beta-globin frameworks by sequencing through two variable positions and for a polymorphic (AT) chi (T) gamma microsatellite 500 bp upstream of the beta-globin gene. These specimens of human remains are somewhat older than those analyzed in previous nuclear gene sequencing reports and considerably older than those used to study high-copy-number human mtDNA. These results show that the systematic study of nuclear DNA polymorphisms of ancient populations is feasible.

Testing of a chemosensitivity screening method on sensitive and resistant breast tumoral epithelial cell lines.

Until now chemosensitivity of tumour cells has been evaluated solely on the basis of cell growth or survival testing. In order to rapidly evaluate sensitivity to anthracyclines, which are well known to disturb DNA organization, we propose a model based on detection of conformational changes in DNA structure. Chromatin texture changes were assessed using a cell image processor which computes six densitometric and nine texture parameters on each Feulgen-stained nucleus and provides multiparametric analyses of data. The technique was tested on two cell lines of human breast cancer, differing only with regard to their sensitivity to anthracycline. The percentage of nuclei affected by the drug and distribution of the cell cycle phases were determined on the same cells. This method can be used to predict the efficacy of anthracyclines used alone or in conjunction with other drugs. It may also be applicable for other therapeutic agents causing conformational changes in DNA structure.

S phase, an evolutionary chromatin condensation state from G1 to G2, in a breast epithelial cell line.

In order to better understand the changes in DNA organization during the cell cycle, we quantified the chromatin texture of breast epithelial cells and followed its evolution through a cell cycle. The diversity of quiescent cell states led us to limit this study to proliferating cell phases, and to choose a cell line with no G0 cells, the MDA AG cell line. We recently developed a methodology for characterizing in situ the cell cycle of breast epithelial cell lines using a cell image processor. This method is based on 15 densitometric and texture parameters computed on individual Feulgen-stained nuclei and on multiparametric analysis of the resulting data. Chromatin pattern assessment is based on nine texture parameters measured from grey-level co-occurrence and run-length section matrices. In the present study, texture parameter computation showed gradual and progressive modifications of nuclear texture. While discrimination of G1, G2 and M phases was possible, we could not discriminate G1 from S and S from G2. The chromatin pattern (defined by these nine parameters) in the G1 and early S phases, on the one hand, and in the late S and G2 phases, on the other hand, were similar. The parameter values of cells in the S phase progressively increased from G1 to G2. Two interphase chromatin condensation states were distinguished in these breast cells: a base state characteristic of a prereplicative stage and a very granular state characteristic of a postreplicative stage. We hypothesized that S cells are a blend of these two states, the evolution of a non-duplicated state toward a duplicated one.

Effects of culture passages on collagen immunostaining in human dental pulp and gingival fibroblasts.

In this study, a scanning microscopic computer-assisted image analysis system was used for the immunocytochemical characterisation of collagen types I, III and V in normal human fibroblasts from pulp and gingival explants, using specific purified antibodies and peroxidase labeling. The culture conditions were standardized in order to evaluate simultaneously the expression of the three antigens in four different culture passages of the two fibroblast types. The optical density values of immunostaining intensities were quantified, the integrated optical density per cell was calculated, and the results were analyzed by a variance test. It was found that all three collagen types were present in the tissues, and in both gingival and pulp fibroblasts after three to nine culture passages. A non-parametric statistical analysis of the staining intensity variances revealed significant differences between antigenic levels depending on the tissue origin of the fibroblasts and an effect of culture passages. The results seemed to justify application of this technique at the light microscope level for the evaluation of collagen production, the principal function of fibroblasts, but the tissue origin and number of culture passages should be taken into consideration for in vitro biocompatibility testing of dental materials.

Estradiol and EGF requirements for cell-cycle progression of normal human mammary epithelial cells in culture.

The purpose of our study was to show the feasibility of accurately investigating the factors likely to control cell proliferation of normal human mammary epithelial (HME) cells, using a scanning cytometric method. The methodology was previously developed with the SAMBA 200 cell image processor to characterize in situ the cell-cycle phases of HME cells. Since various compartments constitute the mammary epithelium, cells obtained after reduction mammoplasty were cultured in a medium with a low calcium content (0.06 mM) to provide proliferating normal HME cells while maintaining their differentiation characteristics. Estradiol and EGF requirements for cell-cycle phase progression of these cells were examined. Then, we showed that 2 normal HME cell cultures displaying different phenotypic characteristics may differently progress through the cell cycle under the same hormonally defined conditions. Cell-cycle progression of the epithelial cells presenting luminal phenotype was induced only by sequential stimulation/pretreatment with estradiol followed by EGF treatment; this progression was enhanced when estradiol was maintained during EGF treatment. This definite order demonstrated that estradiol could have a permissive effect on EGF mitogenic activity. In contrast, epithelial cells likely to be localized in the basal position in the mammary gland showed the same proliferating activity whatever the estradiol and EGF treatment. These cells progressed profusely in cell cycle, independent of exogenous estradiol and EGF contribution, but they remained sensitive to estradiol regarding EGF-receptor detection. Our results suggest autonomous proliferation of these cells through an autocrine pathway, in the absence of negative regulators.

Cell cycle phase dependence of estrogen and epidermal growth factor (EGF) receptor expression in MCF-7 cells: implications in antiestrogen and EGF cell responsiveness.

In this report the effect of epidermal growth factor (EGF) and the antiestrogen hydroxytamoxifen (OH-TAM) on the cell cycle of the breast cancer cell line MCF-7 was investigated as a function of the presence of their respective receptors. For this study synchronized cells were obtained by cell incubation in the presence of 2 mM thymidine for 24 h at 37 C. The treatment led to a partial synchronization, since at the end of thymidine treatment, 80% of cells were accumulated in the G1 phase. The removal of thymidine allowed the cells to progress through the cell cycle, since between 6-9 h after the arrest of the treatment, about 50% of cells were found in the S phase. By 9-12 h, most of the cells entered the G2 phase, and by 24 h, the cells returned to the G1 phase. When MCF-7 cells were incubated in the presence of OH-TAM for various periods of time before thymidine exposure, the progression of the cells through the cell cycle was dramatically inhibited. Also, a short term antiestrogen treatment (2 h) before or immediately after the addition of thymidine led to an accumulation of MCF-7 cells in the G1 phase. However, when the cells were treated for 2 h with OH-TAM 22 h after thymidine addition or shortly after its removal from the cell culture, no effect of the antiestrogen on the cell cycle could be observed. In parallel, the effect of thymidine on the level of estrogen receptor was studied. Although low affinity estrogen-binding sites were maintained, high affinity ER were found to be dramatically reduced during the thymidine treatment. The comparison between the effect of OH-TAM on the cell cycle and the expression of ER revealed that the antiestrogen OH-TAM was effective only in the presence of ER. EGF was found to have no effect on the cell cycle of thymidine-synchronized cells, although it did partially reverse the G1 phase block induced by OH-TAM when added simultaneously to cell culture 24 h before thymidine exposure. The parallel analysis of EGF receptor level demonstrated that thymidine treatment also reduced EGF receptors that were found to reappear after the synchronization, during the S and G2 phases of the cell cycle.(ABSTRACT TRUNCATED AT 400 WORDS)

Nuclear texture parameters as discriminant factors in cell cycle and drug sensitivity studies.

The authors have recently shown that cell cycle characteristics of in situ cell populations can be determined using the SAMBA 200 cell image processor by computing 15 densitometric and texture parameters on each Feulgen-stained nucleus and multiparametric analysis of data. The present paper displays the importance of chromatin pattern assessment and detection of conformational changes in DNA structure, based on nine nuclear texture parameters measured from the grey level cooccurrence and the run-length section matrices. Reference files were constructed by merging respective reference files (G0/G1, S, G2 and M) of MDA AG and MCF-7, two mammary epithelial cell lines presenting different morphological aspects and hormone responses, these files were found to be valid in the reclassification of any mammary epithelial cell in culture with a diploid or near diploid pattern. Moreover, the authors demonstrate that chromatin texture changes, following direct interaction of chemotherapeutic drugs with DNA, may be assessed owing to nuclear texture parameters. Consecutive to daunomycin addition (0.5 microgram/ml) and concomitant to the appearance of nuclear morphological alterations in MDA AG sensitive cells as viewed by microscopic observation, discriminant factorial analysis showed progressively increasing erroneous reclassification from 15 to 72 h of treatment. These experimental results were exploited with a kinetic mathematical model to quantify the daunomycin blocking effect: 20% in S phase and 80% in G2 phase. Interestingly, no textural change was observed on MDA A1 anthracycline resistant cells, indicating that these texture parameters may permit distinction of drug sensitive cells. This methodology 1) can be applied to test in vitro resistance-reversal molecules, 2) may be extended to other therapeutic agents giving rise to conformational changes in DNA structure, and 3) can be applied to cytopunctions or imprints of tumor biopsies with diploid-like DNA content to follow evolution of drug sensitivity or resistance during course of therapy.

[Different regulation systems of cell cycle events (dysregulation of these events in the tumoral cell)]. / Différents systémes de régulation des événements du cycle cellulaire (dysrégulation de ces événements dans la cellule tumorale).

Preservation of the shape and the integrity of multicellular eukaryotes needs rigorous cell proliferation monitoring. During the prereplicative G1 phase, a finely adjusted and specific control supervises the proliferant/non proliferant states of the cells. Some molecular mechanisms of growth regulation have been identified in recent years. Changes in normal cell attachment on extracellular matrix and intercellular chemical signalling (secretion of informative molecules) activate intracellular signals for division. The transduction mechanisms of the extracellular signalling to the nucleus have been partially elucidated for steroid hormones and growth factors. Molecular biology research and proto-oncogene discoveries have led to considerable progress in understanding the role of these normal genes in the control of cellular proliferation. The initiation of the response to extracellular factors requires: i), direct transducers (specific binding of the steroid hormone on its cytoplasmic or nuclear receptor and high affinity binding of this activated complex to specific DNA sequences); and ii) indirect transducers (binding of growth factors on extracellular domains of specific receptor proteins which convert this extracellular event into several intracellular signals, secondary messengers, protein kinases and specific nuclear regulatory factors). Whatever the transduction system, nuclear events control transcription of growth regulatory genes. The series of enzymatic reactions set in motion by indirect transduction systems require strict regulation systems, the diversity and the complexity of which has been perceived in studies on jun and fos gene families. Each proliferation step is governed by growth stimulators and growth inhibitors, the transformation of normal cells to cancer cells resulting from alterations of these regulatory process. Independent of extracellular stimuli and of their transfer to the nucleus, intracellular controls coordinate cell cycle phases (G1, S, G2 and M) to produce daughter cells identical to the original cell. Two control points are particularly critical: one in G1 (the "start" point) and the other in G2 just before mitosis. Although intermediate steps between extracellular and intracellular controls are still unknown, yeast gene analyses have allowed determination of molecular regulatory mechanisms implicated in the passage of these critical points. A considerable advance was made by the discovery that some of the involved components presented strong sequence and function homologies in organisms from yeast to man, suggesting a phyllogenetically conserved mechanism. It seems likely that the phosphorylation state of protein p34, its association with a G1-phase specific cyclin or a M-phase specific cyclin, and its protein kinase activity regulate the proliferation state of higher eukaryotic cells. In spite of significant advances, much research is still necessary to elucidate all the mechanisms involved in cell cycle control.

Distinct effects of gonadotropin-releasing hormone analogs and 4-hydroxytamoxifen on pS2 mRNA expression with respect to cell proliferation in MCF-7 breast cancer cells.

Gonadotropin-releasing hormone (GnRH) analogs and antiestrogens display direct antiestrogenic effects on the proliferation of hormone-sensitive breast cancer cells. This study aimed to determine whether growth inhibition of 17 beta-estradiol-stimulated MCF-7 breast cancer cells by the agonist D-Trp6 GnRH, the GnRH antagonist BIM 21009C and 4-hydroxy-tamoxifen (OHT) respectively occurred through alterations of the estrogen receptor (ER)-mediated intracellular pathway. The pS2 mRNA expression is primarily dependent on activated ER in MCF-7 cells, and pS2 protein could act as a growth factor. Drug effect on pS2 mRNAs were qualitatively compared to those on the cell cycle. Unlike OHT, GnRH analogs did not suppress the 17 beta-estradiol-induced pS2 mRNA expression whilst the cell cycle was blocked. The pS2 mRNA expression was induced by D-Trp6 GnRH alone without effect on the cell cycle. The outcome of our study is double. Firstly, GnRH analogs are distinct from OHT as regards their effects on the ER-mediated intracellular pathway. Secondly, pS2 mRNA expression is not strictly related to MCF-7 cell proliferation, suggesting that pS2 protein has a function other than that of critical growth regulator.